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www.csiro.au
http://www.adelaide.edu.au/fertiliser/
Soil testing for phosphorus
Mike McLaughlin
CSIRO Land and Water
Fertiliser Technology Research Centre, Waite Research Institute,
University of Adelaide
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Soil testing – history of using extractants
Dyer B. (1894) On the analytical determination of probably available "mineral" plant food in soil. Journal of the Chemical Society London 6`5:115-167.
von Liebig H. (1872) Soil statics and soil analyses. Zeitschrift dür Landwirtschaflichen Vereins in Bayern 1872, 837-838.
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Phosphorus tests commonly offeredSoil test Extract pH Soil:soln Shaking
Bray I 0.03 M NH4F 3.0 1:7 1 min0.025 M HCl
Mehlich 3 0.25 M NH4NO3 2.5 1:10 5 min0.20 M CH3COOH0.015 M NH4F0.013 M HNO30.001 M EDTA
Olsen 0.5 M NaHCO3 8.5 1:20 30 min
Colwell 0.5 M NaHCO3 8.5 1:100 16 h
Resin Water 6.0-7.5 1:10 16 hMixed resin
DGT Solid-phase ambient Field Cap. 2 days
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Utility of soil P testing
• A soil test is only useful if it correlates with crop response to fertilizer or other amendment (lime, gypsum, etc.) to trigger farmer action
• Many soil tests are developed with laboratory expediency in mind – multiple elements, short extraction times, simple analyses – with poor correlation to crop responses
• The best soil tests will be robust, fast, cheap and well correlated to crop responses in the field across a wide range of soils
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Correlating soil P to crop response
Mallarino, A. P. (2003). "Field calibration for corn of the Mehlich-3 soil phosphorus test with colorimetric and inductively coupled plasma emission spectroscopy determination methods." Soil Science Society of America Journal 67(6): 1928-1934.
78 site years, 59 locations
Corn
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Correlating soil P to crop response
Slaton, N. A., K. R. Brye and R. K. Bacon (2005). "Correlation and calibration of Mehlich-3 phosphorus recommendations for winter wheat following rice in Arkansas." Communications in Soil Science and Plant Analysis 36(7-8): 993-1004.
18 site years3 soil series
Wheat
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Improving soil P test relationships• Adding a measure of soil P sorption to aid
interpretation of the soil test – P buffer Index (PBI)
• Examine new test methods that more closely respond to crop P uptake - DGT
Burkitt, L. L., P. W. G. Sale and C. J. P. Gourley (2008). "Soil phosphorus buffering measures should not be adjusted for current phosphorus fertility." Australian Journal of Soil Research 46(8): 676-685.
Burkitt, L. L., P. W. Moody, C. J. P. Gourley and M. C. Hannah (2002). "A simple phosphorus buffering index for Australian soils." Australian Journal of Soil Research 40(3): 497-513.
Moody, P. W. (2007). "Interpretation of a single-point P buffering index for adjusting critical levels of the Colwell soil P test." Australian Journal of Soil Research 45(1): 55-62.
Mason, S., A. McNeill, M. J. McLaughlin and H. Zhang (2010). "Prediction of wheat response to an application of phosphorus under field conditions using diffusive gradients in thin-films (DGT) and extraction methods." Plant and Soil 337(1): 243-258.
Mason, S., R. Hamon, H. Zhang and J. Anderson (2008). "Investigating chemical constraints to the measurement of phosphorus in soils using diffusive gradients in thin films (DGT) and resin methods." Talanta 74(4): 779-787.
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Improving soil P test relationshipsP buffer Index (PBI)
• Single point method
• Single addition of 1000 mg P/kg KH2PO4 in 0.01M CaCl2, 1:10 soil:solution ratio
• Shake end-over-end for 17h @ 25oC
• Determine P remaining in solution
PBI = (Ps + Colwell P)/c0.41
PBI = P buffer index, Ps = P sorbed (mg/kg), Colwell P = extractable P by Colwell method (mg/kg), c = final solution P concentration (mg/L)
Burkitt, L. L., P. W. Moody, C. J. P. Gourley and M. C. Hannah (2002). "A simple phosphorus buffering index for Australian soils." Australian Journal of Soil Research 40(3): 497-513.
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Improving soil P test relationships
Moody, P. W. (2007). "Interpretation of a single-point P buffering index for adjusting critical levels of the Colwell soil P test." Australian Journal of Soil Research 45(1): 55-62.
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Improving soil P test relationshipsFast measurement of PBI (+in field)
Diffuse reflection of infrared radiation from surface of neat soils, ground or unground, rapid,no extractants
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Improving soil P test relationshipsFast measurement of PBI (+ in field measurement)
Forrester, S. T., L. J. Janik, J. M. Soriano-Disla, S. Mason, L. Burkitt, P. Moody, C. J. P. Gourley and M. J. McLaughlin (2015). "Use of handheld mid- infrared spectroscopy and partial least- squares regression for the prediction of the phosphorus buffering index in Australian soils." Soil Research 53(1): 67-80.
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0-10 10-20 20-30 30-40 40-50 50-60 60-70 70-80
Dune Swale
Mapping PBI in the field
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Improving soil P testing – DGTDiffusive gradients in thin films
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DGT theory Most useful in deficiency scenarios where diffusion of elements in the soil to plant roots is limited
A B CSoil solution Readily
exchangeableUnavailable
“Available” “Fixed”
A B C
DGT
6
Csoln Cls
∆g
MBL
–Fe
rrih
ydrite
/Che
lex
Trac
e el
emen
t co
ncen
trat
ion
Distance
Flux
M
Soil/SolutionCDGT k1
k-1Diffusion
Basis of the test
Davison W., Zhang H. (1994) In situ speciation measurements of trace components in natural waters using thin-film gels. Nature 367:546-548.
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Improving soil P testing - DGT
Speirs, S. D., B. J. Scott, P. W. Moody and S. D. Mason (2013). "Soil phosphorus tests II: A comparison of soil test–crop response relationships for different soil tests and wheat." Crop and Pasture Science 64(5): 469-479.
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Summary
• Renewed emphasis on deriving accurate calibrations of soil P tests to fertilizer responses
• New soil tests look promising – DGT, PBI – to improve power of soil tests to predict response to P fertilizer
• New spectral methods to analyse soils will revolutionise soil testing and allow greater description of field heterogeneity
• Databases to collate soil test data and crop responses are powerful tools to assist adoption and use of soil testing
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http://www.bfdc.com.au/interrogator/interrogator.vm
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Acknowledgements
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Selected DGT references
• Burkitt, L. L., S. D. Mason, W. J. Dougherty and P. W. G. Sale (2016). "The ability of the DGT soil phosphorus test to predict pasture response in Australian pasture soils - a preliminary assessment." Soil Use and Management 32(1): 27-35.
• Dougherty, W. J., S. D. Mason, L. L. Burkitt and P. J. Milham (2011). "Relationship between phosphorus concentration in surface runoff and a novel soil phosphorus test procedure (DGT) under simulated rainfall." Soil Research 49(6): 523-528.
• Forrester, S. T., L. J. Janik, J. M. Soriano-Disla, S. Mason, L. Burkitt, P. Moody, C. J. P. Gourley and M. J. McLaughlin (2015). "Use of handheld mid- infrared spectroscopy and partial least- squares regression for the prediction of the phosphorus buffering index in Australian soils." Soil Research 53(1): 67-80.
• Mason, S., R. Hamon, H. Zhang and J. Anderson (2008). "Investigating chemical constraints to the measurement of phosphorus in soils using diffusive gradients in thin films (DGT) and resin methods." Talanta 74(4): 779-787.
• Mason, S., A. McNeill, M. J. McLaughlin and H. Zhang (2010). "Prediction of wheat response to an application of phosphorus under field conditions using diffusive gradients in thin-films (DGT) and extraction methods." Plant and Soil 337(1): 243-258.
• Mason, S. D., M. J. McLaughlin, C. Johnston and A. McNeill (2013). "Soil test measures of available P (Colwell, resin and DGT) compared with plant P uptake using isotope dilution." Plant and Soil 373(1-2): 711-722.
• Speirs, S. D., B. J. Scott, P. W. Moody and S. D. Mason (2013). "Soil phosphorus tests II: A comparison of soil test–crop response relationships for different soil tests and wheat." Crop and Pasture Science 64(5): 469-479.